Service terminal block.



G. E. PALMER & W. E. MOODY.

SERVICE TERMINAL BLOCK.

APPLICATION FILED JAN.22, 1910.

Patented May 23, 1911.

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G. E. PALMER & W. E. MoCOY.

SERVICE TERMINAL BLOCK.

APPLIOA'IION FILED JAN. z2, 1910.

l 993,098. Patented May 23, 1911.

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F' 3 F' .I0 WITNESSES.- y y JNVENTORS WHL-F57? E. McCoy,

G'RANwLLa E. 'PALMER 5ta/zg c mLuNM, BY

I m .4 TToR/VEKS G. E. PALMER & W. E. MOCOY.

SERVICE TERMINAL BLOCK.

APPLICATION FILED 3,111.22, 1910.

Patented May 23, 1911.

4 SHEETS-SHEET 3.

WI T NESSES' HVVENTORS WHL-ren E. /vucwl Jglg-RnNvlLLE EPHLMER MATTORNEYS G. E. PALMER & W. E. MOCOY.

SBRVIGB TERMINAL BLOCK.

APPLIOMION FILED :11.11.22, 1910.

993,098. Patented May 23, 1911.

4 SHEETSvSHEET 4.

17a 'NEssEs, j" 0 v INVENTORS M74 y WALTER E. Me C'ov M4, "66' GRANvILLE Elan/.MER

W A TTORNEYS UNITED sTATEs lI A.TEI\IT oEEIoE.

`GRANVILLE E. PALMER, 0F BOSTON, MASSACHUSETTS, AND WALTER E. MOCOY, OF

A NEW YORK, N. Y. I

SERVICE TERMINAL BLOCK.

Specification of Letters Patent.

Patent-ed May 23, 1911.

Application led January 22, 1910. Serial No. 539,580.

To al'lwho'm t may concern:

them when approaching from any direction Be it known that we` GRANVILLE E. PAL- without crossmg; and means by which it is sri-:n and 'll'.x'LTEn E. McCoy, both citizens of the United States of America. and residing in the city of Boston, in the county of Sutiollt. in the State of Massachusetts, and residing in the city. county. and State of New York, respectively, have invented certain new and Improved Service Terminal Blocks, of which the following is a specitication.

Our invention relates to service terminal blocks and the object of our invention is to provide means for connecting the street, or line wires ot' an electric light or power circuit with the house wires of a building, s0 as to vinclude in one device.l a service fuse, a service switch, and a location for a meter; the` service switch being so arranged that it may be incorporated into either the house circuit or into a test circuit passing through the meter and other instruments intended to determine the accuracy of said meter. lYhcn said switch is in said test circuit, the house circuit is not interrupted, means being provided to properly connect and fuse the house circuitwhile test is being conducted. j

Having particular reference to a system which leads the street wires ,into a building in aV duct or tube, our invention includes provision for the proper rtermination and supporto the ductl or tube.

It also includes the provision of means for terminating line and house wires in a safe electrical and practical mechanical arrangement, comprising a service fuse or fuses, a service switch and connections for a device for measuring the amount of electric current passing through these wires.

` These connections' are so arranged that the measuring device may be tested, removed or replaced without interrupting the customers use of current; and so that the service switch may be removed or replaced without interfering with the customers use of current; and iurthcr so that in the event of one 'ot the iuse.- blowing In athrec-wne service, the said fuse may be replaced without endangering the operator or interruptingr the customers use cf current on the other side ot' thc three-wire service. These connections are further arranged so as to enable the line and house wires to be connected t0 possible to always have the line wires pass throuvh the fuses and the switch before they do the measuring device, without any vthe sametilne, the other side 0f the threewire circuit may be caused to remain in an operative condition.

Means are further provided that, in the event of it being desirable lto test the measurinfr device, the customers circuit need not be interrupted, though. during the said test, it is properly fused. In making a test the switch becomes a part of the test circuit, the operator being able to manipulate it so that the meter and all'of the test circuit are entirely dead until the test connections are completed, when they may be controlled by the switch without the operation of the switch affecting the cnstomers or worl-:ing circuit.

In the accompanying drawings in which our invention is shown embodied in our form, Figure l is a plan of the terminal block with cover removed; Fig. Q is a side elevation of same with cover adjusted; Fic. 3 is a plan similar to Fig. 1 but showing with the block reversed and a meter in position; Fig. -l is a side elevation of the same; Figs. 5 to 10 inclusive are diagrammatic plans of various connections through the block; Fig. 11 is a plan view of the switch partly in section; Fig. 4l). is a. side elevation of the same; Fig. 13 is a broken side elevationof a supplementary switch actuating device; Fig. l-t is a broken plan of portion of the switch; Fig. 15 is a broken side elevation of a detail of construction, partly in section; Fig. 16 is a plan of the block without the switch Fig. 17 is a side elevation It may also be used to enable with the sides of the casing adjusted andy partly in section; Fig. 18 is a similar view at right angles thereto; Fig. 19 is a perspective of the cover; Fig. 20 isa perspective of the locking bar; and Fig. 21 is a perspective of a detail.

The device in the form shown comprises a terminal base or block A to which are attached the terminals D, D1, D2 for the line and C, D1, C3 for the load wires, and the fuses K, K1. It is further provided'with openings for screws b-Z b2b3 by which the switch may be attached, the switch not necessarily being a part of the equipment,v

lthat they'may be placed on either opposite' sides or ends of the box, or on any end or side, so as to provide anventrance for the conduit, containing the service or load wires, approaching from any direction. The sides of the block are arranged with angle corner posts P, P1, P2, P3 and provided with a U- shaped opening P2 in each side; these U- shaped openings being so arranged' as to register with the conduit as supported by the conduit supports. y The corner posts are secured to' the slate base by means of screws passing through holes on the face of the base, and engaging in nuts in a countersunk portion of said holes, these nuts being held 1n place by 'sealing wax or other suitable cement so as to enable the posts of the inclosing boX to be detached -and `lremoved from the base in order to enable lthe ready vmanipulation of the connectingwires for v,projecting ends of the corner posts, and

shackle bars T are provided which engage with the slots in the corner posts so`as to secure the cover, and to permit its being sealed or locked in place.

As the terminal block is intended for use with .all varieties of meters, it is further provided with adjustable means for support- 111g these various types of meters, so that by a change in the positionA of these supports, 'it is possible to arrange the block for use with any type of meter5-a suitable cover being provided for-use with meters of different size or shape.

Having thus described in outline the features of this construction, we will nowlproceed to describey its mechanical details.

Referring-to Fig. l, on the base A, which is composed of slate or some other suitable non-conducting material, are mounted, by means of screws f, f1, f2, f3, f1, etc., (Figs. 1 and 4:) the bus bar sections B, B1,B2,C,C1, C2 and C3, D, D1 and D2; the meter supporting straps E and E1; the conduit supporting clips F and F1; and the inclosing box G. The sections D, D1 D2 are extended and protrude on each side of the meter when placed over them. The sections B, B1 C1 C2 are shorter and adjacent to the ends yot the extended sections D, D2. The sections B2 B3 C C2 are additional sections and adjacent .respectively to the shorter sections BB1 C1 C2 and the sections D D2 so as to be easily lelectrically connected thereto as hereinafter described. The three line wires are indicated as H, and the three house wires as H1,

the representation showing a three-wire or a polyphase service. In a two-wire service the bus bar D1 and theiline and house Wires attached to it are omitted. A

Referring to Figs. 5, 6, 7, 8, 9 and 10, it will be seen that the line wires, as indicated by the arrows as approaching the block, and the house wires, as indicated by the arrows as leaving the block, may approach from either direction without crossing; the line wires always attaching to bus bars D, D1 D2, and the house wires always attaching to C, D1 and C3. In Figs. 5,6, 7, 8, 9 and 10 the series coils of the meter, which are indicated jointly as I, are attached to the bus bars B and B1, and C1 and C2 under all arrangements.

yIn Fig. 5 one incoming conductor is connected to the plate D from which the circuit passes through the fuse K to plate` B2, switch arm K2, plate B the upper meter coil I, plate C1, strap lvl, plate C to an outgoing conductor. Another incoming conductor is connected to the plate D2 from which the circuit is through the fuse K1, plate B3, switch arm K3, plate B1, lower meter coil I, plate C2, strap M1, plate C3 to an outgoing conductor. The third incoming conductor is connected to one end of the plate D1 through which the circuit goes directly to the outgoing eonductor connected to its other end. The. description of circuits just given applies equally well to the arrangement shown in Figs. 6, 7 and 8.

Figs. 5 and 6 indicate theconnections in which 'the wires approaching from either the left or right connect through the fuses, diagrammatically illustrated, K and K1; the movable switch members K2 and K3, and

the series coils of the meter, when said coilsl through fuses K and K1, and the movable switch members'K2 and K3, and the series coils of the meter, when said coils should have their right hand terminals attached to line, and their left hand terminals attached to load.

Figs. 9 and 10 indicate that by placing fuses L and L1 so as to connect the points D2 and C3 and D and C respectively, it is possible to by-pass the series coils of the lneter, remove the connecting straps M and M1, Figs. 6 and 7, open the switch that conare in contact with same, or interrupting the current supplied to the customer through the bus bars D1 and D2.

Fig. 9 shows the block with a standard polyphase testing instrument U with artificial 'load u connected thereto, the conductors leading from the A,standard instrument being shown in heavy lines, its series-coils being connected to the terminal plates C1-C2 and the shunt coils being connected to the terminal plates B-B1.

Fig. 10 shows a standard single-phase testing instrument U1 with artificial load u1 connected to the block when used in connection with a single-phase circuit. In this case the series circuit of the standard instrument. including the articial load u1 is connected between the plates D1 and B3 and the shunt circuit is connected between the plates D1 and B, the plates C1 and C2 being also electrically connected so as to put the two coils of the service meter in series.

When testing as either in Figs. 9 or l0, the straps M-'M1 are both removed and fuses L-.-L1 inserted. Then the standard meters are connected as shown, the service is still'maintained during the connecting in ofthe standard instrument and the test of the service meter and-the circuits through the service meter and testing .instrument are subject to control by the switch which is entirely cutoutof the service circuits. Then the fuses L-L1 are inserted and the straps M-M1 removed, anda testing instrument inserted as in Figs. 9 and 10. the

circuits to the house' service are direct from the incoming leads through th'e conductors D-D1- 2 to the outgoing leads. In 9 the circuits through the service meter and the standard meter in series beginning with the conductor D, are through fuse K, plate B2, switch 4arm K3, plate B, lower coil I, plate C1, lower series coil i of standard meter, artificial load u to conductor D1, and beginning with conductor D2 through fuse vK1, plate B3. switch arm K2, plate B1, up-

per meter coil I, plate C2, upper series coil z' of standard meter, articial load u to conductor D1. The shunt coils of standard are conductor D1 and plates C--C1.

In Fig. 10, during the meter test the plates C1-C2 are connected by a conductor to put the two coils I-I in series, and the fuse K1 removed. The circuit through the service meter and the standard meter is then as follows: Conductor D, fuse K, plate B2, switch arm K2, plate B, upper series coils I, plates C1-C2, lower series coil I, plate B1, switch arm K3, plate B3, load u1, series coil 1 of standard meter to conductor D1. The shunt coil of the standard is connected to conductor D1 and plate B.

Figs. 1, 2, 11 and 12 show the method of attaching or detaching the switch shown in Fig. 11, from the terminal block shown 1n Fig. 1. The terminal block is supportedV B3 are drilled so as to allow screws b, b2, b1"

and b3 to pass through the bars, through the Vcontact stud M3, Fig. 15, and engage in the threaded holes a, c1, c2, c3 in the lixed contact blocks, (Z, (Z1, (Z2, (Z3 of Fig. 11 as shown in connection with (Z1 in Fig. 15.

The switch illustrated in Figs. 11 and 12, is mounted on a' base e, and consists of the fixed contact members (Z, (Z1, (Z2, (Z3 and movable contact members K2 and K1. These movable contactn1embers are in operative relation with but insulated from the operating rod j, which moves in a guide j1, having a limit stop 3'2, engagin'g in the slot of the guide j1. The operating rod is provided with a handlel js and sprmg pressed locking bar J, and a spring returned release trigger j. The spring lock bar engages in a notch 7"1 of the operating bar j. The spring,r lock bar is provided with la pivot y'1, Fig. 11, and also may be provided with a supplementary releasing dog y1 in operative relation with the armature j on the solenoid j, Figs. 1 and 13. vl

The switch stands in a vertical position, and, if the handle is pushed upward until the movable contacts K2 and K3 come into notch je, and allows the switch.'- to open bygravity; or if the push button g (Fig. 13) is operated so as to cause the solenoid .7'10 to be energized by the battery g1 or other source of electrical current, the armature j comes into such relation with the pawl js that the locking bar. j* is released from engagement with the notch j allowing the switch to open by gravity.

It will be readily seen by comparing Figs. 1 and 11 that the opening and closing of the switch interrupts the working circuit when connected as shown in Fig. 5, and controls the test circuit when connected as shown in Figs. 9 and 10. A

As the holes in the bus /bar sections B, B1, \B2, B3 are symmetrically located with refl, or the terminal block may be so erected that the bus bar terminals B, B2, B1, B3

vare on the right hand side of the block as shown in Fig. 7, and permits of the switch beinglocated under the ri ht instead of under the left hand side o the block; thus making it possible to have the fuse and switch always come on the line side of the measuring device.Y

The connection stud M? shown in Fig. 15, is suiiciently long to extend entirely through the base A, so that a screw passing through the clearance hole with which it is provided and engaging the fixed contacts of the switch draws it into close electrical connectionywith the fixed terminal contacts d, d1, cl2 and d3 and the bus bar sections B, B1, B2 and B3.

The switch shown in Fig. 11 is providedv with inclosing sides G1, composed of metal or other suitable material, of such height that when the switch is placed in the position shown in Fig. 2, all of its parts which carry current are inclosed, as the base of the terminal block covers'its open side.

To the base A are secured the supporting straps E, E1 by the screws h, h1, h2, h3. These straps are provided with threaded holes h4, h5, h, h", hs. Two angle pieces 11,

' 1 and strap '2 are provided suitably arranged for attachment to the meter by- -screws, and in turn to the supporting straps The angle pieces i and "i1, and

mounted on the base Av by. the screws N1; the base A being drilledand countersunk to permit of the use of nuts on the lower side of the block. These nuts are held in place by a suitable cement so as to enable the screws N4 being removed. There are four conduit supports on each block, two of which are supplied with the hole N5 that permits the entrance of the conduit O, and of its being clamped to its supports by the check nuts N8. lThe sides of the inclosing case, shown in Figs. 16, 17 and 18 are of sheet metal or other suitable material, bent into shape so as to snugly inclose the base A, and are held in positionl by angle pieces P, P1, P2 and P3 which are secured to the base A by screws and nuts N, N1, N2, N3 engaging in the base A.

The box Gr is provided on each of its four sides with .a U-shaped\` notch P1. notches are made so that they register with the conduit O, and its supports, and the box is clampedto the conduit supports by one of the lock nuts N6 at Ieachconduit entrance. As itis usuall not desirable to have more than two con uit entrances ony the block,

'and as it may be desirable to enter or leave the block from any direction, Gr is notched on each of its four sides. The blank conduit supportsfF2 and F3 are not provided with the hole N5, simplyracting as a cover to the blank holes in thetwo unused sides of G. The angle pieces P-P1-. 2- 3 extend above G as shown in Fig. 17, and are provided with slots. and notch similar to R1 R2; and P1 and P2 each have slots similar to B.. The cover S, shown in Fig. 19 has a flange These P and P3 each have a slot Y s1 and slots s2, s3, s* and S5. This cover S ts down over G, its flange extending on theoutside of Gr, and the slots's2, ss, 81, sxi reglstering with P1, P2, P3, P respectively.` The hole s6 in the cover S allows the meter to project through it. As meters vary in their mitting it to be removed without disturbing the conduits.

The ends of the angle pieces P, P1, P2 and P3 extend through the cover S, when 1t 1s' in place, (see Fig. 2) far 'enough to allow two shackle bars, both identically the samey as shown in Fig. 20, to be engaged with thev slots of theseeangle pieces-the end of the shacklebar T'engages with the notched and slotted section R1, and the end T1 of the bar,

securing the cover S into place. The end, T1, of the shackle bar extends through the slot R a suliicient distance to permit a seal or lock being engaged with Lthe hole T2 in order to prevent its removal, which would allow in turn the removal of the cover S, and access to the live terminals of the block.

lVliile we .have thus ydescribed with particularity a construction well adapted to aiiord the advantages pointed out,l our inwention may readily be'I incorporated in structures of modified form and we do not limit ourselves to the details shown.

Te claim as our invention:

1. A service terminal block comprising a fuse,l a switch and a current measuring device,through all of which the `connection between the line and load circuit ma be established and means in connection wlth said block for establishing a fused bypass around said switch fuse and measuring device so that either device may be entirely removed during the uninterrupted continuity of the service connect-ion. Y'

2. In a connection block, the combination of an extended bus bar section, two shorter bus bar sections adjacent to the ends of said extended sect-ions, two additional bus bar sections adjacent to said shorter terminal sections and their adjacent extended sections, a switch arm connecting one additional section and its adjacent shorter section, a fuse connecting said last mentioned additional section and said extended section, a conductor connecting the other additional section and its adjacent shorter section, and an insulating base on which said sections are mounted.

3.- In a connection block, the combination of an extended bus bar section, two shorter bus bar sections adjacent to the ends of said extended sections, two additional bus bar sections adjacent to said two shorter sections, respectively and to their adjacent extended section, a switch arm connecting one additional section and its adjacent shorter section, a conductor connecting said last mentioned additional section and said extended section, a removable conductor con- 'necting the other additional section and its adjacent shorten section, said other additional sect-ion belng adapted to be electrically connected to saidv extended section, and 55.

an insulating base on which said sections are mounted. A M l 4. In a Yconnection block, the. combination of an. extended bus bar section, two shorter bus bar lsections adjacent to said extended sections, two additlonal bus bar sections adjacent to said two shorter sections and their adjacent extended section, a switch arm con nectingone additional section and its adjacent -shorter section, a conductor connecting said last mentioned. additional section and said extended section, a conductor connecting the other additional section and its adjacent shorter section, and an insulating base on which said sections are mounted, said sections being on the front face of said base and said switch arm being on the opposite face thereof.

5. Ina connection block, the combination of two extended bus bar sections, four shorter bus bar sections mounted adjacent to the four ends thereof respectively, four additional bus bar sections mounted adjacent;

to the shorter sections respectively, switch arms connecting the shorter'sections at one side with the additional sections at that side respectively, connections between said last mentioned additional sections and the correspondingends of the extended sections respectively, and connections between the other additional sections and their adjacent shorter sections respectively, and an insulat- -ing base on which all of said sections are mounted.

6. In a connectioniblock, the combination A of two extended bus bar sections, four shorter bus bar sections mounted adjacent to the four ends thereof respectively, four additional bus bar sections mounted adjacent to the shorter sections respectively, switch arms connecting the shorter sections at one side with the additional sections at that side respectively, connections between said last mentioned additional sections and the correspondin ends of the extended sections respective v. and connections between the otherladditional sections and their adjacent shorter sections respectively,and a mechanical connection between said switch arms for actuating the same.

7. In a`connection block, the combination of two extended bus bar sections, four shorter bus bar sections mounted adjacent to the four ends thereof respectively` four additional bus bar sections mounted adjacent to the shorter sections respectively, switch arms connecting the shorter sections at one' side with the additional sections at that side, connections between said last mentionedadditional'sections and the corresponding ends of the extended sections, and connections between the other additional sections and theiry adjacent shorter sections respectively, an insulating base on which all of sald, sections are mounted, and a casing for said base and "sections, said base being reversible relatively to its casing, and said switch arms being reversible relatively to said base.

8. In a connection block, the combinatlon of two extended Vbus bar sections, four shorter bus bar sections mounted adjacent to the four ends thereof respectively, four additional bus bar sections mounted adjacent to the shortersections respectively, swltch contacts removably connected to the shorter sections at one side and the additional sections at that side, movable switch. arms engaging. said contacts, connections between said last mentioned additional sections and the corresponding ends of the extended sections, and connect-ions between the other additional sections and their adjacent shorter sections respectively, an insulating base on which all of said sections are mounted, a casing for said base and sections, said base being reversible relatively to its casing, and said switch arms and contacts being reversible relatively to said base, and an independent backing to which said contacts and movable switch arms are secured. Y

9. In a connection block, the combination of two extended bus bar sections, four shorter bus bar sections mounted adjacent to the four ends thereof respectively, four additional bus bar sections mounted adjacent to the shorter sections respectively, switches having movable switch arms and two pairs of switch contacts connecting the shorter sections at 'one side with the additional sections at that side, connections between said last mentioned additional sections and the corresponding ends of the extended sections, connections between the other additional sections and their adjacent shorter sections respectively, an insulating base on whichl all of said sections are mounted, and a casing for said block and sections, said base being reversible relatively to its casing, and said switch arms being reversible relatively to said'base, an independent backing for-said switch to which its contacts and movable switch arms are secured, and means for removably connect-ing the additional sections secured to the extended sections and the shorter sections adjacent thereto to either pair of switch contacts, said switch arms L and switch contacts being on the rear of said insulating base, and said sections being on the front face thereof. 1`

10. In a connection block, the combination of two extended bus bar sections, four shorter bus bar sectionsmounted adjacent to I the four ends thereof respectively, four additional bus bar-sections mounted adjacent to the shorter sections respectively, aswitch having two switch arms and two pairs of contacts connected to the shorter sectionsat one side of the block and the additional sections at that side, connections between said rlast mentioned additional 'sect-ions and the of said sections are mounted, a casing for said base and sections, said base being re- 'versible relatively to its casing, and said l switch being reversible relatively to said base,

Aconnections between the other additional.l sections andJ their adjacent shorter sections an independent backing on which said ifnovable switch arms and contacts `are mounted, and means for removably connecting the additional sect-ions secured to the extended section and the shorter sections adjacent thereswitch arms being connected together and f normally tending to move to open posit-ion, and means i'orA holding the same in closed position. v V

11. In a connection block, the combination of two extended bus bar sections, four shorter bus bar vsections'mounted adjacent to the four ends thereof respectively, four additional bus'bar sections mounted adjacent to the shorter' sections respectively, switch arms connecting lthe shorter sections at one end of the block with the additional sections at that end, connections between said last mentioned additional sections and the correspondingends of the extended sections'and respectively, said last mentioned additional Sections and their respectively adjacent exfl tended sections .being 'adapted to be elec'- trically connected together, and a third ex` tended bus bar section located between the said other extended sections. l 12. In a meter connection block the combination of a line terminal, two switch contacts, a fuse connecting one of said contacts to said line terminal, the other contact beingf switch, a load terminal adapted to be electrically connected with another meter conductor, and means for connecting said load terminal to said line terminal by a fuse,

thereby, bypassing said switch and rst mentioned fuse and fusing .the by-pa-ss 13. In a meter connection block the combination of a line terminal, two switch con-- tacts, a fuse connecting one of said contacts to saidline terminal, the other contact being adapted to be connected to a meter conductor, a switch arm co-acting with said contacts, and together therewith constituting a' switch, a load terminal, a meter terminal adjacent to said load terminal, a removable conductor connecting said meter and load terminals, and means for connecting said'v load terminal to said line terminal by a fuse, thereby by-passing said switch and first mentioned fuse, and fusing the by-pass.

1 4. In a meter Aconnection block` the conii bination of a line terminal. two switch con-' tacts, a fuse connecting one of said contacts to said line terminal, the other contact being` adapted to be connected to a, meter conducjacent to said load terminala/L removable conductor connecting said meter and load terminals, and means for connecting said load terminal to. said line terminal by a fuse,y

, thereby by-passing said switch and first mentioned fuse, and fusing the by-pass, and

a line and load terminal adjacent `to said line terminal.

In testimony whereof we have signedour names to this specification, in the ,presence of two subscribing witnesses.

GRANVILLE E. PALMER. WALTER E. MCCOY. s Witnesses as to E. Palmer:

WILLIAM L. HATEIELD, 4 JOSEPH B. SMITH. Witnesses as to Walter E. McCoy:

WALTER ABBE, H WILLIAM ABBE. 

